An Evaluation of Skilled Labour shortage in selected construction firms in Edo state, Nigeria by AJER

American Journal of Engineering Research (AJER)

2015

American Journal of Engineering Research (AJER) e-ISSN : 2320-0847 p-ISSN : 2320-0936 Volume-4, Issue-1, pp-156-167 www.ajer.org Open Access

Research Paper

An Evaluation of Skilled Labour shortage in selected construction firms in Edo state, Nigeria Oseghale, B.O.; Dr Abiola-Falemu, J.O.; Oseghale G.E Maintenance Department Regional Center for Aerospace Survey Along Road 1, Obafemi Awolowo University, Ile-Ife Osun State, Nigeria. Federal University of Technology Akure, Nigeria. Department of Building Obafemi Awolowo University, Ile- Ife Osun State, Nigeria.

ABSTRACT: The study investigated skilled labour requirement in the construction industry of Edo State. The study aimed at assessing the current state of the construction industry’s skilled workforce, causes and prevalence of skilled labour shortage and the effect of skilled labour shortage in construction project delivery. The method employed for collection of data includes distribution of structured questionnaires. The data collected were analyzed using Frequency tables, percentages, mean response analysis, relative importance index and cross tabulation. The research identified the most severe factors responsible for labour shortage to include; no clear carrier path, high mobility of construction workers and low wages. The study found that construction firms are not sending their skilled workforce for training, and that the skilled workers are unwilling to recommend the profession to their children. The research revealed that the construction firms were paying extra money for labour, and Schedule delay in their construction programmes as a result of skilled labour shortage. The study found aging workforce in the construction trades sampled, and that the entrance of young people into the construction trades was very low. KEY WORDS: Skilled Labour, Shortage, Construction Industry, Construction Firms

INTRODUCTION

The construction industry occupies a focal position in a nation’s economy. It is an essential contribution to the process of development [1].The construction industry is a global industry known for its generation of jobs at different skill and professional levels. In terms of value of its output, its global market is reported to be around $1.5 Trillion as of today [2]. The construction industry contributes about 5 percent to the Gross Domestic product GDP [3] in Nigeria. The author in [4] affirmed that it contributes about 50% percent of Nigerian government expenditure. It therefore shows that the construction industry is crucial in National development. Modern construction is a complex, highly organized process. Not only is it a science and a commercial business, but it is a creative art. For the newest recruit to the mature craftsman of many years’ experience, it is a rewarding, often tough and demanding discipline. Every person employed within the construction process makes a direct contribution not only to the community in general but also to the nation at large [5].In world labour market, construction workers are said to be over 100 million, constituting 6-7 % of the world labour force [2]. In the construction industry employment is characterised by relatively high rates of attrition among subcontractors as well as waged workers, and this is manifested in periodic labour shortages [6; 7; 8; 9]. The findings of the Chartered Institute of Building survey (CIOB) [10] indicate that a shortage of Skills Labour continues to be a challenge for the construction industry. The CIOB [10] predicted that this issue is likely to worsen as the demand for construction increases. The CIOB research findings indicate that people possessing crafts/trades and senior/middle Management skills are highly sought after. From time to time employers in a number of countries refer to the difficulties they have in recruiting labour of the requisite quality, even on occasion when the labour market is relatively slack. Yet academic work on this issue is relatively sparse and in particular little is known of the consequences of such situations. Despite the perceived importance of skill shortages in Nigeria, the literature addressing these issues is limited.

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According to the Institute of Management and Administration cited in [11] the skilled craft shortage is not a shortage of workers rather it is a shortage of adequately trained skilled and productive workers available for certain jobs. With the construction industry requiring some of the most highly skilled workforce to do some of the most dangerous jobs, replacement and recruitment proves to be difficult. Reasons that have been given for the skilled labour shortage include lack of training, an aging workforce, poor image of the workers, and an industry that does not appeal to many youth [12;13;14; 15; 11]. The authors in [16] opined that skill shortages are a complex labour market Phenomenon, and are related to business performance. They went further to state that Skill shortages are often portrayed as a major problem for the economies of many countries. Yet, there is surprisingly little evidence about their prevalence, causes and consequences in the Nigerian construction industry. Although there are no statistics to show whether, there is shortage of skilled craftsmen in the Nigerian construction industry, expert and other stakeholders in the industry believe that there is shortage of skilled trades in the industry. This research is conducted in response to concerns from stakeholder about the perceived shortage of skilled Workers and the impact that this shortage may be having on the industry ability to meet the growing residential and commercial demand for construction. This study therefore assesses the state of the Nigerian construction industry with respect to skill labour shortage, the prevalence, causes and effects on building project delivery. The trades selected for this study were Bricklaying, Carpentry, painting and Plumbing. This trades were selected because of their level of dominance in building construction works. II. LITERATURE REVIEW Research work of [15] revealed a number of factors which have combined to influence the construction skill shortfall, some of these include; The introduction of new tec hnologies which have reconstituted the skill required [17;12, 18].The growth in self-employment and the use of labour only sub-contractors which have reduced the commitment and investment in training within the industry [19;20;21;22] self-employed craftmen in turn are not able to handle their qualification improvement issues and there is a direct correlation between the fall of trainee members and the numbers of self-employed [23;24; 25; 13;14;26). The poor image of the industry which unfavourably affects the popularity as a career choice [12;13;14]. The image is low among workers themselves as the majority of construction crafts workers of various ages and experience would never recommend their trade to their children [26]. High mobility of construction workers as the result of unattractive image, unsafe work place, irregularity of the workload, lack of respect and opportunities for training. The dissatisfaction with labour organization especially the unstable workload as the reason of the release by received workers. [27;28;29]. The site safety and quality of work always the least and last to be attended to as they are always the conflicting goals running in different directions to earning and speed (18-20). Globalization has added also negative ethnic characterization of cultural differences of multi-lingual construction teams. [30;31;32;33]. The combination of these factors has led to a labour market reliant upon a casual workforce, incorporating high levels of self-employment, low levels of training investment and hence, low quality skills. [13;34;35]. III. RESEARCH METHODOLOGY The research examined the state of the Nigerian construction industry, its workforce, determined the prevalence of skilled labour shortage, assessed the causes of skilled labour shortage and the effects of skilled labour shortage on building project delivery. The research involved gathering and collection of primary data. This involved responses to a personal interview with the aid of a structured questionnaire. Two (2) forms of questionnaires were designed and distributed. The first was designed to obtain information from managers in the construction industry, having construction projects in Edo state; the second one was designed to obtained information from skilled workers in the various trades to know their perceptions on key issues facing the construction industry. The construction trades selected for this study were Bricklaying, Carpentering, Plumbing and Painting. The choice of these trades was as a result of their level of dominance in the building industry. The distribution of these questionnaires was conducted to cut across the various sections or senatorial districts in Edo state. There are three senatorial districts in Edo state which includes: Edo south, Edo central and Edo north senatorial districts. A systematic random sampling technique was used in selecting the building contractors that were sampled in these senatorial districts, but the choice of each contracting firm was a function of the total number of such firms operating in that area. Construction trades were also sampled in these senatorial districts.

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SAMPLE FRAME AND SAMPLE SIZE The sample frame for this study were construction firms registered with Edo State Government, University of Benin, Edo State University, Auchi Polytechnic and others having project with local government. A total of 200 firms were identified and used as the sampling frame. 30 % of the sample frame was used as the sample size for this study making a total of 60 firms for questionnaire type A. The first questionnaire was directed to the managers and supervisors of construction firms, (Questionnaire type A) while the second type of questionnaire was administered to the tradesmen (Questionnaire type B) METHOD OF DATA ANALYSIS. In the analysis of the data collected for this research work, various methods of analytical/statistical techniques used were cross tabulation, percentage, frequency distribution, mean response analysis, and relative importance index. DATA ANALYSIS AND DISCUSSION OF RESULTS (QUESTIONNAIRE TYPE A) Educational and professional qualifications of respondents Table 1: Academic and Professional Qualification of Respondents Description Frequency Percent GCE/SSCEOL 7 19.4 B.Sc 3 8.3 FTC 1 2.8 HND 14 38.9 MNIOB 2 5.6 MNIQS 1 2.8 M.Sc 8 22.2 Total 36 100.0 Table 1 above represents the Academic and Professional qualifications of the respondents. This show that the respondent possess the required qualification in the industry to be able to contribute their quota effectively in this study. Table 2: Profession of Respondents in the Construction industry Description Frequency Percent Estate surveyors 1 2.8 Architecture 4 11.1 Building 14 38.9 Civil Engineering 6 16.7 Quantity Surveying 6 16.7 Others 5 13.9 Total 36 100.0 Table 2 shows the various professions of respondents sampled. This shows that the respondents cut across the various professional who possess the require knowledge about the subject under survey to contribute their quota.

Description <2yrs 2-4yrs 5-7yrs 8-10yrs over 10yrs Total

Table 3: Respondents Working Experience Frequency Percent 1 2.8 10 27.8 2 5.6 4 11.1 19 52.8 36 100.0

Table 3 shows the number of years of respondents working experience in the study area. This shows that the respondent sampled have relevant experience in the industry to be able to respond all the questions asked.

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Table 4: Nature of Business set-up Nature of Business Frequency Sole proprietorship 11 Partnership 1 Limited liability company 10 Public liability company 14 Total 36

Percent 30.6 2.8 27.8 38.9 100.0

Table 4 shows the nature of Business set-up of the respondent sampled. The implication of this is that all the firms sampled cut across small, medium and large business enterprises. Table 5: Category of Registration of the Company with Federal Ministry of workers and Housing Category of Registration Frequency Percent Category A 6 16.7 Category B 4 11.1 Category C 22 61.1 Category D 4 11.1 Total 36 100.0 Table 5 shows the category of registration of the firm sampled. 16.7% were registered in category A, 11.1% were registered in category B, while 61.1% were registered under category C and 11.1% were registered under category D. This show that all the firm sampled were registered under different categories, and that they execute jobs ranging from small scale to large scale. Table 6: Nature of work undertaken Nature of work undertaken Building works Civil Engineering works Both building and civil Engineering

Total

Frequency 16 3

Percent 44.4 8.3

47.2

100.0

Table 6 shows the nature of work undertaken by the various firms sampled. 44.4% executed Building works, 8.3% undertook Civil Engineering works while 47.2% were involved in both Building and Civil Engineering works. Table 7: Number of permanent Employees Number of permanent employees

Frequency

Percent

< 30 employees 30 -100 employees Over 100 employees Total

17 10 9 36

47.2 27.7 25.0 100.0

Table 7 shows the number of permanent employees working in the construction companies sampled. 47.2% had less than 30 employees, while 27.7% had between 30-100 employees and 25.0% had above 100 employees in three companies as permanent staff. Table 8: Method of Recruitment. Method of recruitment

Frequency

Percent

Formal interview through head office only Formal interview through regional office only On site without formal interview Combination of all of the above Total

25.0

8.3

10 14 36

27.8 38.9 100.0

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Table 8 shows the method of recruitment adopted in the firms sampled. This shows that the companies used different method of recruiting employees, depending on the one that is suitable to them. Table 9: Skilled labour Shortage Description Frequency Percent Yes 26 80.6 No 7 19.4 Total 36 100.0 Table 9 shows whether there is skilled labour shortage in the construction industry in Nigeria. 80.6% of the respondent agreed that there is skilled labour shortage, while 19.4% were of the view that there is no skill labour shortage. The implication of this is that majority of the managers agreed that they were experiencing skilled labour shortage in the various trades in the construction industry. Table 10: Skilled labour shortage in bricklaying Description Frequency Percent YES NO Total

24 12 36

66.7 33.3 100.0

Table 11: Skilled labour shortage in carpentry Description Frequency Percent YES 27 75.0 NO Total

9 36

25.0 100.0

Table 12: Skilled labour shortage in plumbing Description Frequency Percent YES

55.6

NO Total

16 36

44.4 100.0

Table 13: Skilled labour shortage in painting Description Frequency Percent YES 29 80.6 NO 7 19.4 Total 36 100.0 Tables 10, 11, 12, and 13 shows the skilled labour shortage in the four trades sampled in the construction industry. 66.7% experience skilled labour shortage in Bricklaying, 75% experience skilled labour shortage in carpentry while 55.6% experience skilled labour shortage in plumbing and 80.6% experienced skilled labour shortage in painting. This shows that mangers were experiencing skilled labour shortage in the four trades sampled. Table 14: Rate of labour shortage in Bricklaying Description Frequency Percent very low Low High very high Total

9 16 T 4 36

25.0 44.4 19.5 11.1 100.0

Table 14 shows the rate of labour shortage in bricklaying. 25% of respondents agreed that the rate of labour

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shortage were very low, 44.4% agreed that the rate of labour shortage were low, while 19.5% of respondents agreed that the rate were high, and 11.1% of the respondents agreed that the rate were very high. This shows that the rate of labour shortage in bricklaying have not reached an alarming rate. Table 15: Rate of Labour shortage in Carpentry Description Frequency Percent very low Low High very high Total

8 17 6 5 36

22.2 47.2 16.7 13.9 100.0

Table 15 shows the rate of labour shortage in carpentry. 22.2% of respondents agreed that the rate of labour shortage were very low, 47.25 agreed that the rate were low, while 16.7% agreed that the rate were high and 13.9% agreed that the rate were very high. Table 16: Rate of labour shortage in Plumbing Description

Frequency

Percent

very low Low High very high Total

6 5 16 9 36

16.7 13.9 44.4 25.0 100.0

Table 16 shows the rate of labour shortage in plumbing. 16.7% of the respondents agreed that the rate of labour shortage in this trade were very low, 13.9% agreed that the rate were low while 44.4% agreed that the rate were high and 25.0% agreed that the rate were very high. Table17: Rate of labour shortage in Painting Description Frequency Percent Very low Low High very high Total

19 9 7 1 36

52.8 25.0 19.4 2.8 100.0

Table 17 shows the rate of labour shortage in painting. 52.8% show that the rate were very low, 25% show that the rate were low, while 19.4% show that the rate were high and 2.8% show that the rate of shortage were very high. This shows that the rate of labour shortage in this trade is relatively low. Table 18 : Relative Importance Index for the rate of skilled labour shortage Question 15-17 RII Rank q15c q15b q15a q15e

Rate of labour shortage in plumbing Rate of labour shortage in carpentry Rate of labour shortage in bricklaying Rate of labour shortage in painting

0.67 0.53 0.52 0.34

1 2 3 4

RII was calculated for the rate of skilled labour shortage among the trades surveyed. Table 18 shows the results of the relative importance index that were conducted the rate of skilled labour shortage in the five trades sampled (plumbing, carpentry, bricklaying and painting). The result shows that the rate of skilled labour shortage in plumbing was ranked number 1 followed by carpentry, bricklaying and painting respectively.

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Table 19: Mean Response Analysis for causes of skilled labour shortage. MRA

Rank

q16i

No clear cut career path

2.83

q16d q16h

High mobility of construction workers Low wages

2.69 2.67

2 3

q16j q16b

Diminishing craftsperson training programme Growth of self employment

2.61 2.58

4 5

q16e q16a q16g

Dissatisfaction with labour organization Introduction of new technologies Ethnic characterization

2.53 2.47 2.44

6 7 8

q16f q16c

Poor safety of construction work Poor image of the industry

2.31 2.03

9 10

MRA â&#x20AC;&#x201C;Mean Response Analysis Table 19 shows the result of the mean response analysis that was conducted for the identified causes of skilled labour shortage in the construction industry. In the ranking No clear cut career path came first, followed by High mobility of construction workers, Low wages, Diminishing craftsperson training programme, Growth of self employment respectively while Poor image of the industry had the lowest ranking.

Questionnaire Type 2

Table 20: Type of trade/craft Description Carpenters Bricklayers Plumbers Painters Total

Frequency 23 25 21 20 89

Percent 25.8 28.1 23.6 22.5 100

Table 20 shows the types of trade that were surveyed for this study. Thirty questionnaires were printed and distributed for each trade of four (carpenters, bricklayers, painters and plumbers) making a total of one hundred and twenty (120) questionnaires. The percentage response rate is 74% which is adequate for the project work.

Description Male

Table 21: Sex of the craft Frequency Percent 89 100.0

Table 21 show the sex of the respondents craft in the construction industry in the study area 100% were male, this shows that the craft in the study area were male dominated.

Description

Table 22: Age of craft men Frequency Percent

18-25yrs

4.5

26-33yrs 34-41yrs 42-49yrs Above 50yrs Total

17 26 24 18 89

19.1 29.2 27.0 20.2 100.0

Table 22 show the Age of craftmen surveyed. 4.5% were between 18-25 years old, 19.1% were between 26-33

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years of Age, 29.2% were between 34-41 years of Age while 27% were between 42-49 years of Age and 20.20% were above 50 years. This shows that 76.4% of the craftmen have their Ages above 33 years. This shows that the rates of new entrance of young people into the construction trade were very low and it poses serious implication for the future of the construction industry in Nigeria in the area of skilled labour requirement. Table 23: Place of Residence in Relations to site/office Description Frequency Percent Very far Not too far

24 55

27.0 61.8

Close 10 11.2 Total 89 100.0 Table 23 shows the place of residents of the respondents in relation to their site offices. 27% of the respondents choose very far, 61.8% choose not too far and 11.2% close. The implication of this is that if the company does not have means of transportation for transporting the workers to site. It then means that workers were incurring more expenses in order to get to their various sites. Table 24: Nature of Employment Description Frequency Permanent staff 2 Daily paid 21 Contract staff 40 Sub contractor 26 Total 89

Percent 2.2 23.6 44.9 29.2 100.0

Table 24 shows the nature of employment of the skilled labour. Only 2.2% of the respondents were permanent staff of the construction company, 23.6% were engaged on daily paid, while 44.9% were contract staff and 29.2% were sub-contractors. The implication of this is that the construction firms were not employing skilled labour as permanent staffs of the construction firms. Table 25: Employment Qualification ofCrafts men/trade Description Frequency Percent No response 1 1.1 Primary school plus apprenticeship 53 59.6 Modern school plus apprenticeship Secondary school plus apprenticeship Technical school graduate Total

5 18 12 89

5.6 20.2 13.5 100.0

Table 25 shows employment qualification of crafts men/trades. 59.6% of the respondents holds primary school certificates plus apprenticeship, 5.6% of the respondents holds modern school certificates plus apprenticeship while 20.2% of the respondents holds senior secondary school certificates plus apprenticeship and 13.5% were technical school graduates. The implication of this is that a higher percentage has only primary school certificates and might not be able to take down instructions pass to them by the supervisor accurately. Table 26: Level of Satisfaction of Employees on the amount of wages/salaries earns.

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Description

Frequency

Percent

No response Very good

2 13

2.2 14.6

Good Fair Poor Total

32 25 17 89

36.0 28.1 19.1 100.0

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Table 26 show the level of satisfaction of employees on the amount of wages earned. 14.6% of the respondents say the wages is very good, 36% of respondents say the wages were good, while 28.1% say the wages wee fair and 19.1% say the wages were poor. The implication of this is that a larger percentage is not satisfied with the wages earned. Table 27: Skilled Labour Shortage Description Frequency Percent No response Yes No Total

4 59 26 89

4.5 66.3 29.2 100.0

Table 27 shows the result of skilled labour shortage among the skilled labour force. When the respondents were asked whether there was skilled labour shortage in their trades, 66.3% of the respondent picked yes while the 29.2% pick no and 4.5% were not having any response. Table 28: Regularity of Training for permanent staff of construction Description No response Regular Not regular Never on training

Frequency 18 3 7 61

Percent 20.2 3.4 7.9 68.5

Total

100.0

Table 28 investigated the training of staff of construction firms. The respondents were asked on how regularity their firms send them of training. 20.2% of the respondents hard no response, 3.4% of the respondents say there were sent regularly for training, while 7.9% of respondents say the training were not regular, and 68.5% of the respondents say they were never sent on training. Table 29: Reasons why Construction firms are not sending out workers for training Description

Frequency

Percent

No response Cost Fear of leaving for another company

24 48 14

27.0 53.9 15.7

Others Total

3 89

3.4 100.0

Table 29 shows the result of the reasons why construction firm were not training their workers. When the respondents were asked the reasons why the construction firms were not sending out workers for training 27% of the respondents had no response, 53.9% of the respondents say the reason were cost, while 15.6 say the reason were fear of leaving for another company. Table 30: Recommendation of this trade or profession for respondents Children Description

Frequency

Percent

No response Yes No Total

17 18 54 89

19.1 20.2 60.7 100.0

Table 30 shows the result of the recommendation of trade or profession to respondents’ children. When the respondents were asked whether they would recommend this trade or profession for respondent’s children, 20.2% of the respondent’s says, yes while 60.7% say no and 19.1% had no response. The implication of this is that craft men were not proud of their profession. When the respondents were asked the reasons why this trade

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or profession cannot be recommend for respondentâ&#x20AC;&#x2122;s children, 4.6% had no response, 18.0% says the reasons were Low wage, 16.9% say the reason were no clear cut carrier path, 3.4% says the reason were poor safety of construction work, while 43.8% say the reason were poor image attached to the trade and 3.4% of the respondents says the reason wee other different from the ones above. Table 31: Type of trade/craft * Age (Crosstab) Description

Age

Type of trade/craft Carpenters

1825yrs 0

2633yrs 1

3441yrs 7

4249yrs 4

above 50yrs 11

% within Type of trade/craft % within Age

.0%

4.3%

30.4%

17.4%

47.8%

.0%

5.9%

26.9%

16.7%

61.1%

100.0 % 25.8%

% of Total

.0%

1.1%

7.9%

4.5%

12.4%

25.8%

Count

% within Type of trade/craft % within Age

16.0%

24.0%

32.0%

16.0%

12.0%

100.0

35.3%

30.8%

16.7%

100.0 % 28.1%

% of Total

4.5%

6.7%

9.0%

4.5%

3.4%

28.1%

Count

% within Type of trade/craft % within Age

.0%

33.3%

.0%

47.6%

19.0%

.0%

41.2%

.0%

41.7%

22.2%

100.0 % 23.6%

% of Total

.0%

7.9%

.0%

11.2%

4.5%

23.6%

Age 1825yrs .0%

2633yrs 15.0%

3441yrs 55.0%

4249yrs 30.0%

above 50yrs .0%

.0% .0% 17

17.6% 3.4% 26

42.3% 12.4% 24

25.0% 6.7% 18

.0% .0% 89

Bricklayers

Plumbers

Count

Description

Type of trade/craft Count

% within Type of trade/craft % within Age % of Total 4

Total

% within Type of trade/craft % within Age

4.5%

19.1 %

29.2%

27.0 %

20.2%

100.0%

100%

100.%

100%

100.%

100.0%

% of Total

4.5%

19.%

29.2%

27.%

20.2%

100.0%

100.0 % 22.5% 22.5%

Table 31 shows the result of cross tab for type of trade/craft age, 0% of the carpenters have their ages between 18-25 years, 4.3% of the carpenters have the ages between 26-33 years, 30.4% of the carpenters have their Ages between 34-41yrs, while 17.4% of the carpenters have their Ages between 42-49 yrs, and 47.8% of the carpenters have their Ages above 50 yrs. The implication of this is that there were no new entrance of young people into the carpentry profession and over 45% of the carpenters already have their Ages above 50 years and they are still climbing. This is a serious implication for the construction industry in Edo state Nigeria. Types of trades Bricklayers 16% of the Bricklayers have their Ages between 18-25 yrs, 24% of the Bricklayers have their Ages between 26-33yrs, 32% of the Bricklayer has their Ages between 34-41 yrs, while 16% of the Bricklayers have their Ages between 42-49 years and 12% of the Bricklayers have their Ages above 50 years. This shows that 60% of the Bricklayer has their Ages above 33yrs. The entrance of young people into this trade is low but compared to the trade of carpenters, the entrance is still better.

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Plumbers From the plumbers surveyed 0% of them have their Ages between 18-25yrs, and 34-41 yrs 33.3% have their Ages between 26-33 yrs, while 47.6% of the plumbers have the Ages between 42-49 yrs and 19% of the plumbers have their Ages above 50 years. This shows that about 66% of the plumbers have their Ages above 41 yrs. Old. This again shows that the entrance of young people into this trade is very low. Painters 0% of the painters have their Ages between 18-25 years, and above 50 yrs. 15% of the painters have their Ages between 26-33 yrs, while 55% of the painters have their Ages between 34-41 years and 30% of painters have their Ages between 42-49 years. This shows that 85% of the painters have their Ages above 33 years. This show that there experience workers on the construction industry but the entrance of young people into this trade is very low. Table 32: Relative Importance index for the effects of labour shortage q17a q17c q17b

Paying extra money for labour Schedule delay caused by labour shortage Encountering cost overruns

RII 0.6875 0.680556 0.659722

Rank 1 2 3

Table 32 shows the result of relative importance index that were conduct for the effects of skilled labour shortage in the construction industry. The result show that paying extra money for labour was ranked no 1 followed by schedule delay caused by labour shortage (No 2) and encouraging cost overruns was ranked number 3.

IV.

CONCLUSION

In the assessment of skilled labour requirements in the construction industry in Edo State, Nigeria, 80% of the managers surveyed agreed that they were experiencing construction skilled labour shortage in the four trades sampled. (i.e Bricklaying, carpentry, painting and plumbing). 75% of carpenters, 56% of Bricklayer, 76% of plumbers and 65% of painters surveyed affirmed that there were skilled labour shortages in their various trades. The research found that the most severe factors responsible for the skilled labour shortage were; No clear carrier path, High mobility of construction workers, Low wages, Diminishing craftsperson Training programmes. The research revealed the effects of skilled labour shortage to include; (1) paying extra money for labour (2) Schedule delay caused by labour shortage and (3) cost overruns. The findings reveals aging workforce in the construction trades sampled, as over 65% of the carpenters were above forty two (42) years old, 60% of the Bricklayer were above 33 year old, about 65 of the plumber were above 42years and 85% of the painters were above 42years. The research found that the entrance of young people of between 18 -25years into the construction trades sampled were very low.

REFERENCES [1] [2] [3] [4] [5] [6] [7]

[8] [9] [10] [11] [12]

Oseghale, G.E & Ata, O. (2008). Reasons for delay in building projects: the case study of edo state Nigeria. The professional builder.Journal of the Nigerian institute of building, 81-88. The Ambekar Institute for Labor Studies, Mumbai.Capacity Building for the Promotion of Labour Rights for Vulnerable Groups of Workers.Study Report ‘Naka’ Workers (Construction Industry), TheAmbekar Institute for Labor Studies, Mumbai. Olaloku, F.A. (1987).The Second-Tier Foreign Exchange Market (SFEM) and the construction industry in Nigeria.Options and challenges, construction in Nigeria, Lagos, 3, 20-23. Kazier, M.I. (1987).The development of indigenous contracting in Nigeria. The Engineer, Lagos, 9 (2), 41. Ward, P.A. (1979).Organization and procedures in the construction industry. Great Britain. Macdonald and Evans Ltd. Tucker, R., Bennett and Eickmann, K., (2001). Pulp and paper projects feel impacts from skilled construction labour shortage. Available from: http://findarticles.com/p/articles/mi ga3636/is 200109/ai n8981837 (Accessed 23 April 2009). Chan, P., Clarke, L., and Dainty, A. (2011) The dynamics of migrant employment in construction:Can supply of skilled labour ever match demand? In: Ruhs M and Anderson B (eds)Who Needs Migrant Workers? Labour Shortages, Immigration, and Public Policy, Oxford: Oxford University Press, pp. 225–255. Erlich, M., and Grabelsky, J.(2005). Standing at the crossroads: The building trades in the twenty-first century. Labor History 46(4): 421–445. McGrath-Champ, S., Rosewarne, S., and Rittau, Y. (2011) From one skill shortage to the next: The Australian construction industry and geographies of a global labour market. Journal of Industrial Relations 53(4): 467–485. Chartered Institute of Building, 2008.Skills Shortages in the UK Construction Industry, Chartered Institute of Building Survey. Olsen, D., Tatum, M., and Defnall, C., (2012). How Industrial Contractorsare Handling Skilled Labor Shortages in the United States, 48th ASC Annual International Conference Proceedings. SLIM Report (2002). Craft and skilled trades SLIM learning theme report skills and learning intelligence module, 52.

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American Journal of Engineering Research (AJER) [13] [14] [15] [16] [17] [18] [19] [20] [21] [22] [23] [24] [25] [26] [27] [28] [29] [30] [31] [32] [33] [34] [35]

2015

Dainty, A.R.J., Ison, S.G. & Root, D.S. (2004). Bridging the skill gap: A regionally driven strategy for resolving the construction labour market crisis, Engineering, Construction and Architectural Management11(4) 275-283. Tarnoki, P. (2002). The real world of managing project: â&#x20AC;&#x2DC;Soft-sideâ&#x20AC;&#x2122;. 2nd SENET conference in project management,cavtat, Croatia,555-559. Lill, I. (2004).Evaluation of labour management strategies in construction TUT Press, Tallinn, 115. Healy, J., Mavromaras, K., Sloane, K. (2011). Adjusting to Skill Shortages: Complexity and Consequences, IZA DP No. 6097. Agapiou, A., Price, A.D.F. &Mccaffer, R. (1995). Planning future construction skill requirements understanding labour resource issues, Construction Management and Economics 13(2) 149-161. Wells, J. & Wall, D. (2003). The expansion of employment opportunities in the building construction sector in the content of structural adjustment: some evidence from Kenya and Tanzana. Habitat international,27 (3),325-337. Chini, A.R., Brown, B.H. & Drummond, E.G. (1999). Causes of the construction Skilled labour shortage and proposed solutions. ASC Proceeding of the 35th Annual conference. California Polytechnic State University, San luis Obispo, California, 187-196. Druker, Jac, R. (2000).National collective bargaining and employment flexibility in the European building and civil Engineering Industries ConstructionManagement and Economics (18) 699-709. Haksever, A.M; Demir, I.H. & Omer, G. (2002).Assessing the benefits of longterm relationship between contractors and subcontractors in the UK.International journal for construction marketing. No. 3,pp. 63-91 Janssen, J. (2000). The European construction industry and its competitiveness: a construct of the European commission,construction management and economics, 18,711-720. Crowley, L.G., Lutz, J.D. & Burleson, R.C. (1997). Functional illiteracy in construction industry. Journal of Construction Engineering and Management 123(2) 162-170. Mackenzie, S., Kilpatrick, A.R. &Akintoye, A. (2000), UK construction skill shortage response strategies and analysis of industry perception construction management and economics,18,853-862. Sybenni, G. (1998). A qualification traps in the German construction industry: changing the production model and the consequences for the training system in the German construction industry. Construction management and economics 16,593-601. Liska, R.W. (2002). Attracting and retaining a skilled construction workforce. Construction innovation and global competitiveness: 10th international symposium RC press, Cincinati, 1270-1282 Cahul, P. &Postel-vinay, F. (2002). Temporary jobs, employment protection and labour market performance, Labour Economics 9(1) 63-91. Haas, C.T., Rodrigues, A.M., Glover, R. &Goodrum, P.M. (2002).Implementing a multi-skilled workforce, construction management and economics.19 633-641. Smithers , G.L & Walker D.H.T. (2000). The effect of workplace on motivation and demotivation of construction professionals, construction management and economics,18,833-841. Belic, S. (2002). Reality and preconceptions about the style of management in construction: 2nd SENET Conference on Project Management, Cavtat, 568-573 Bust, P.D., Gibb, A.G.F., & Pink, S. (2007). Managing construction health and safety. Migrant workers and communication.Safety Message, Safety Science, in press, corrected proof. Jaselskis, E.J., Stong, K.C., Aveiga, F., Canales, A.E., Jahren, C. (2007).Successful multinational workforce intergration program to improve construction site performance,safety science, in press, corrected proof. Wilson, F.D. (2003).Ethnic niching and metropolitan labour market, social science research,32 (3),429-466. Briscoe, G., Dainty, A.R.J & Millet, S.J. (2000).The impact of the tax system on self employment in the British construction industry, international journal of manpower,21(8) 596-613. Kashiwagi, T. & Tam, S. (2002).Solving the construction craftperson skill shortage problem through construction undergraduate and graduate education ASC 38th Annual Conference Virgina Polytechnic Institute and state University. Blacksburg,VA, 165-176.

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